/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define erDUMP_ICU_CALENDAR 0 #define erDUMP_I18N_CALENDAR 0 #if erDUMP_ICU_CALENDAR || erDUMP_I18N_CALENDAR // If both are used, DUMP_ICU_CAL_MSG() must be used before DUMP_I18N_CAL_MSG() // to obtain internally set values from ICU, else Calendar::get() calls in // DUMP_I18N_CAL_MSG() recalculate! // These pieces of macro are shamelessly borrowed from icu's olsontz.cpp, the // double parens'ed approach to pass multiple parameters as one macro parameter // is appealing. static void debug_cal_loc(const char *f, int32_t l) { fprintf(stderr, "%s:%d: ", f, l); } # include static void debug_cal_msg(const char *pat, ...) { va_list ap; va_start(ap, pat); vfprintf(stderr, pat, ap); va_end(ap); } #if erDUMP_ICU_CALENDAR // Make icu with // DEFS = -DU_DEBUG_CALSVC -DUCAL_DEBUG_DUMP // in workdir/UnpackedTarball/icu/source/icudefs.mk // May need some patches to fix unmaintained things there. extern void ucal_dump( const icu::Calendar & ); static void debug_icu_cal_dump( const ::icu::Calendar & r ) { ucal_dump(r); fflush(stderr); // set a breakpoint here to pause display between dumps } // must use double parens, i.e.: DUMP_ICU_CAL_MSG(("four is: %d",4)); #define DUMP_ICU_CAL_MSG(x) {debug_cal_loc(__FILE__,__LINE__);debug_cal_msg x;debug_icu_cal_dump(*body);} #else // erDUMP_ICU_CALENDAR #define DUMP_ICU_CAL_MSG(x) #endif // erDUMP_ICU_CALENDAR #if erDUMP_I18N_CALENDAR static void debug_cal_millis_to_time( long nMillis, long & h, long & m, long & s, long & f ) { int sign = (nMillis < 0 ? -1 : 1); nMillis = ::std::abs(nMillis); h = sign * nMillis / (60 * 60 * 1000); nMillis -= sign * h * (60 * 60 * 1000); m = nMillis / (60 * 1000); nMillis -= m * (60 * 1000); s = nMillis / (1000); nMillis -= s * (1000); f = nMillis; } static void debug_i18n_cal_dump( const ::icu::Calendar & r ) { UErrorCode status; long nMillis, h, m, s, f; fprintf( stderr, " %04ld", (long)r.get( UCAL_YEAR, status = U_ZERO_ERROR)); fprintf( stderr, "-%02ld", (long)r.get( UCAL_MONTH, status = U_ZERO_ERROR)+1); fprintf( stderr, "-%02ld", (long)r.get( UCAL_DATE, status = U_ZERO_ERROR)); fprintf( stderr, " %02ld", (long)r.get( UCAL_HOUR_OF_DAY, status = U_ZERO_ERROR)); fprintf( stderr, ":%02ld", (long)r.get( UCAL_MINUTE, status = U_ZERO_ERROR)); fprintf( stderr, ":%02ld", (long)r.get( UCAL_SECOND, status = U_ZERO_ERROR)); fprintf( stderr, " zone: %ld", (long)(nMillis = r.get( UCAL_ZONE_OFFSET, status = U_ZERO_ERROR))); fprintf( stderr, " (%f min)", (double)nMillis / 60000); debug_cal_millis_to_time( nMillis, h, m, s, f); fprintf( stderr, " (%ld:%02ld:%02ld.%ld)", h, m, s, f); fprintf( stderr, " DST: %ld", (long)(nMillis = r.get( UCAL_DST_OFFSET, status = U_ZERO_ERROR))); fprintf( stderr, " (%f min)", (double)nMillis / 60000); debug_cal_millis_to_time( nMillis, h, m, s, f); fprintf( stderr, " (%ld:%02ld:%02ld.%ld)", h, m, s, f); fprintf( stderr, "\n"); fflush(stderr); } // must use double parens, i.e.: DUMP_I18N_CAL_MSG(("four is: %d",4)); #define DUMP_I18N_CAL_MSG(x) {debug_cal_loc(__FILE__,__LINE__);debug_cal_msg x;debug_i18n_cal_dump(*body);} #else // erDUMP_I18N_CALENDAR #define DUMP_I18N_CAL_MSG(x) #endif // erDUMP_I18N_CALENDAR #else // erDUMP_ICU_CALENDAR || erDUMP_I18N_CALENDAR #define DUMP_ICU_CAL_MSG(x) #define DUMP_I18N_CAL_MSG(x) #endif // erDUMP_ICU_CALENDAR || erDUMP_I18N_CALENDAR using namespace ::com::sun::star::uno; using namespace ::com::sun::star::i18n; using namespace ::com::sun::star::lang; namespace i18npool { // Cast positive int32 values to signed int16, needed for // fieldValue[CalendarFieldIndex::YEAR] where absolute value of an era year may // be 32768 that with static_cast becomes -32768, which we also // do here but indicating places in a controlled way to map back. static inline sal_Int16 cast32To16( sal_Int32 a ) { // More than uint16 can't be handled, should not occur. assert(a >= 0 && a < static_cast(SAL_MAX_INT16) - static_cast(SAL_MIN_INT16)); return static_cast(a); } // And back. static inline sal_Int32 cast16To32( sal_Int16 i ) { return static_cast(static_cast(i)); } Calendar_gregorian::Calendar_gregorian() : mxNatNum(new NativeNumberSupplierService) { init(nullptr); } Calendar_gregorian::Calendar_gregorian(const Era *_earArray) : mxNatNum(new NativeNumberSupplierService) { init(_earArray); } void Calendar_gregorian::init(const Era *_eraArray) { cCalendar = u"com.sun.star.i18n.Calendar_gregorian"_ustr; fieldSet = 0; // #i102356# With icu::Calendar::createInstance(UErrorCode) in a Thai // th_TH system locale we accidentally used a Buddhist calendar. Though // the ICU documentation says that should be the case only for // th_TH_TRADITIONAL (and ja_JP_TRADITIONAL Gengou), a plain th_TH // already triggers that behavior, ja_JP does not. Strange enough, // passing a th_TH locale to the calendar creation doesn't trigger // this. // See also http://userguide.icu-project.org/datetime/calendar // Whatever ICU offers as the default calendar for a locale, ensure we // have a Gregorian calendar as requested. /* XXX: with the current implementation the aLocale member variable is * not set prior to loading a calendar from locale data. This * creates an empty (root) locale for ICU, but at least the correct * calendar is used. The language part must not be NULL (respectively * not all, language and country and variant), otherwise the current * default locale would be used again and the calendar keyword ignored. * */ icu::Locale aIcuLocale( "", nullptr, nullptr, "calendar=gregorian"); /* XXX: not specifying a timezone when creating a calendar assigns the * system's timezone with all DST quirks, invalid times when switching * to/from DST and so on. The XCalendar* interfaces are defined to support * local time and UTC time so we can not override that here. */ UErrorCode status = U_ZERO_ERROR; body.reset( icu::Calendar::createInstance( aIcuLocale, status) ); if (!body || !U_SUCCESS(status)) throw RuntimeException(); eraArray=_eraArray; } Calendar_gregorian::~Calendar_gregorian() { } Calendar_hanja::Calendar_hanja() { cCalendar = u"com.sun.star.i18n.Calendar_hanja"_ustr; } OUString SAL_CALL Calendar_hanja::getDisplayName( sal_Int16 displayIndex, sal_Int16 idx, sal_Int16 nameType ) { if ( displayIndex == CalendarDisplayIndex::AM_PM ) { // Am/Pm string for Korean Hanja calendar will refer to Japanese locale css::lang::Locale jaLocale(u"ja"_ustr, OUString(), OUString()); if (idx == 0) return LocaleDataImpl::get()->getLocaleItem(jaLocale).timeAM; else if (idx == 1) return LocaleDataImpl::get()->getLocaleItem(jaLocale).timePM; else throw RuntimeException(); } else return Calendar_gregorian::getDisplayName( displayIndex, idx, nameType ); } Calendar_hanja_yoil::Calendar_hanja_yoil() { cCalendar = u"com.sun.star.i18n.Calendar_hanja_yoil"_ustr; } OUString SAL_CALL Calendar_hanja_yoil::getDisplayName( sal_Int16 displayIndex, sal_Int16 idx, sal_Int16 nameType ) { if ( displayIndex == CalendarDisplayIndex::AM_PM ) { // Am/Pm string for Korean Hanja calendar will refer to Japanese locale css::lang::Locale jaLocale(u"ja"_ustr, OUString(), OUString()); if (idx == 0) return LocaleDataImpl::get()->getLocaleItem(jaLocale).timeAM; else if (idx == 1) return LocaleDataImpl::get()->getLocaleItem(jaLocale).timePM; else throw RuntimeException(); } else return Calendar_gregorian::getDisplayName( displayIndex, idx, nameType ); } const Era gengou_eraArray[] = { {1868, 1, 1, 0}, // Meiji {1912, 7, 30, 0}, // Taisho {1926, 12, 25, 0}, // Showa {1989, 1, 8, 0}, // Heisei {2019, 5, 1, 0}, // Reiwa {0, 0, 0, 0} }; Calendar_gengou::Calendar_gengou() : Calendar_gregorian(gengou_eraArray) { cCalendar = u"com.sun.star.i18n.Calendar_gengou"_ustr; } const Era ROC_eraArray[] = { {1912, 1, 1, kDisplayEraForcedLongYear}, // #i116701# {0, 0, 0, 0} }; Calendar_ROC::Calendar_ROC() : Calendar_gregorian(ROC_eraArray) { cCalendar = u"com.sun.star.i18n.Calendar_ROC"_ustr; } /** * The start year of the Korean traditional calendar (Dan-gi) is the inaugural * year of Dan-gun (BC 2333). */ const Era dangi_eraArray[] = { {-2332, 1, 1, 0}, {0, 0, 0, 0} }; Calendar_dangi::Calendar_dangi() : Calendar_gregorian(dangi_eraArray) { cCalendar = u"com.sun.star.i18n.Calendar_dangi"_ustr; } const Era buddhist_eraArray[] = { {-542, 1, 1, 0}, {0, 0, 0, 0} }; Calendar_buddhist::Calendar_buddhist() : Calendar_gregorian(buddhist_eraArray) { cCalendar = u"com.sun.star.i18n.Calendar_buddhist"_ustr; } void SAL_CALL Calendar_gregorian::loadCalendar( const OUString& uniqueID, const css::lang::Locale& rLocale ) { // init. fieldValue[] getValue(); aLocale = rLocale; const Sequence< Calendar2 > xC = LocaleDataImpl::get()->getAllCalendars2(rLocale); for (const auto& rCal : xC) { if (uniqueID == rCal.Name) { aCalendar = rCal; // setup minimalDaysInFirstWeek setMinimumNumberOfDaysForFirstWeek( aCalendar.MinimumNumberOfDaysForFirstWeek); // setup first day of week for (sal_Int16 day = sal::static_int_cast( aCalendar.Days.getLength()-1); day>=0; day--) { if (aCalendar.StartOfWeek == aCalendar.Days[day].ID) { setFirstDayOfWeek( day); return; } } } } // Calendar is not for the locale throw RuntimeException(); } css::i18n::Calendar2 SAL_CALL Calendar_gregorian::getLoadedCalendar2() { return aCalendar; } css::i18n::Calendar SAL_CALL Calendar_gregorian::getLoadedCalendar() { return LocaleDataImpl::downcastCalendar( aCalendar); } OUString SAL_CALL Calendar_gregorian::getUniqueID() { return aCalendar.Name; } void SAL_CALL Calendar_gregorian::setDateTime( double fTimeInDays ) { // ICU handles dates in milliseconds as double values and uses floor() // to obtain integer values, which may yield a date decremented by one // for odd (historical) timezone values where the computed value due to // rounding errors has a fractional part in milliseconds. Ensure we // pass a value without fraction here. If not, that may lead to // fdo#44286 or fdo#52619 and the like, e.g. when passing // -2136315212000.000244 instead of -2136315212000.000000 double fM = fTimeInDays * U_MILLIS_PER_DAY; double fR = rtl::math::round( fM ); SAL_INFO_IF( fM != fR, "i18npool", "Calendar_gregorian::setDateTime: " << std::fixed << fM << " rounded to " << fR); UErrorCode status = U_ZERO_ERROR; body->setTime( fR, status); if ( !U_SUCCESS(status) ) throw RuntimeException(); getValue(); } double SAL_CALL Calendar_gregorian::getDateTime() { if (fieldSet) { setValue(); getValue(); } UErrorCode status = U_ZERO_ERROR; double fR = body->getTime(status); if ( !U_SUCCESS(status) ) throw RuntimeException(); return fR / U_MILLIS_PER_DAY; } void SAL_CALL Calendar_gregorian::setLocalDateTime( double fTimeInDays ) { // See setDateTime() for why the rounding. double fM = fTimeInDays * U_MILLIS_PER_DAY; double fR = rtl::math::round( fM ); SAL_INFO_IF( fM != fR, "i18npool", "Calendar_gregorian::setLocalDateTime: " << std::fixed << fM << " rounded to " << fR); int32_t nZoneOffset, nDSTOffset; UErrorCode status = U_ZERO_ERROR; body->getTimeZone().getOffset( fR, true, nZoneOffset, nDSTOffset, status ); if ( !U_SUCCESS(status) ) throw RuntimeException(); status = U_ZERO_ERROR; body->setTime( fR - (nZoneOffset + nDSTOffset), status ); if ( !U_SUCCESS(status) ) throw RuntimeException(); getValue(); } double SAL_CALL Calendar_gregorian::getLocalDateTime() { if (fieldSet) { setValue(); getValue(); } UErrorCode status = U_ZERO_ERROR; double fTime = body->getTime( status ); if ( !U_SUCCESS(status) ) throw RuntimeException(); status = U_ZERO_ERROR; int32_t nZoneOffset = body->get( UCAL_ZONE_OFFSET, status ); if ( !U_SUCCESS(status) ) throw RuntimeException(); status = U_ZERO_ERROR; int32_t nDSTOffset = body->get( UCAL_DST_OFFSET, status ); if ( !U_SUCCESS(status) ) throw RuntimeException(); return (fTime + (nZoneOffset + nDSTOffset)) / U_MILLIS_PER_DAY; } bool Calendar_gregorian::setTimeZone( const OUString& rTimeZone ) { if (fieldSet) { setValue(); getValue(); } const icu::UnicodeString aID( reinterpret_cast(rTimeZone.getStr()), rTimeZone.getLength()); const std::unique_ptr pTZ( icu::TimeZone::createTimeZone(aID)); if (!pTZ) return false; body->setTimeZone(*pTZ); return true; } // map field value from gregorian calendar to other calendar, it can be overwritten by derived class. // By using eraArray, it can take care Japanese and Taiwan ROC calendar. void Calendar_gregorian::mapFromGregorian() { if (!eraArray) return; sal_Int16 e, m, d; sal_Int32 y; e = fieldValue[CalendarFieldIndex::ERA]; y = cast16To32(fieldValue[CalendarFieldIndex::YEAR]); m = fieldValue[CalendarFieldIndex::MONTH] + 1; d = fieldValue[CalendarFieldIndex::DAY_OF_MONTH]; // since the year is reversed for first era, it is reversed again here for Era compare. if (e == 0) y = 1 - y; for (e = 0; eraArray[e].year; e++) if ((y != eraArray[e].year) ? y < eraArray[e].year : (m != eraArray[e].month) ? m < eraArray[e].month : d < eraArray[e].day) break; fieldValue[CalendarFieldIndex::ERA] = e; fieldValue[CalendarFieldIndex::YEAR] = cast32To16( (e == 0) ? (eraArray[0].year - y) : (y - eraArray[e-1].year + 1) ); } #define FIELDS ((1 << CalendarFieldIndex::ERA) | (1 << CalendarFieldIndex::YEAR)) // map field value from other calendar to gregorian calendar, it can be overwritten by derived class. // By using eraArray, it can take care Japanese and Taiwan ROC calendar. void Calendar_gregorian::mapToGregorian() { if (!eraArray || !(fieldSet & FIELDS)) return; sal_Int16 e = fieldValue[CalendarFieldIndex::ERA]; sal_Int32 y; if (e == 0) y = eraArray[0].year - cast16To32(fieldValue[CalendarFieldIndex::YEAR]); else y = eraArray[e-1].year + cast16To32(fieldValue[CalendarFieldIndex::YEAR] - 1); fieldSetValue[CalendarFieldIndex::ERA] = y <= 0 ? 0 : 1; fieldSetValue[CalendarFieldIndex::YEAR] = cast32To16(y <= 0 ? 1 - y : y); fieldSet |= FIELDS; } /// @throws RuntimeException static UCalendarDateFields fieldNameConverter(sal_Int16 fieldIndex) { UCalendarDateFields f; switch (fieldIndex) { case CalendarFieldIndex::AM_PM: f = UCAL_AM_PM; break; case CalendarFieldIndex::DAY_OF_MONTH: f = UCAL_DATE; break; case CalendarFieldIndex::DAY_OF_WEEK: f = UCAL_DAY_OF_WEEK; break; case CalendarFieldIndex::DAY_OF_YEAR: f = UCAL_DAY_OF_YEAR; break; case CalendarFieldIndex::DST_OFFSET: f = UCAL_DST_OFFSET; break; case CalendarFieldIndex::ZONE_OFFSET: f = UCAL_ZONE_OFFSET; break; case CalendarFieldIndex::HOUR: f = UCAL_HOUR_OF_DAY; break; case CalendarFieldIndex::MINUTE: f = UCAL_MINUTE; break; case CalendarFieldIndex::SECOND: f = UCAL_SECOND; break; case CalendarFieldIndex::MILLISECOND: f = UCAL_MILLISECOND; break; case CalendarFieldIndex::WEEK_OF_MONTH: f = UCAL_WEEK_OF_MONTH; break; case CalendarFieldIndex::WEEK_OF_YEAR: f = UCAL_WEEK_OF_YEAR; break; case CalendarFieldIndex::YEAR: f = UCAL_YEAR; break; case CalendarFieldIndex::MONTH: f = UCAL_MONTH; break; case CalendarFieldIndex::ERA: f = UCAL_ERA; break; default: throw RuntimeException(); } return f; } void SAL_CALL Calendar_gregorian::setValue( sal_Int16 fieldIndex, sal_Int16 value ) { if (fieldIndex < 0 || FIELD_INDEX_COUNT <= fieldIndex) throw RuntimeException(); fieldSet |= (1 << fieldIndex); fieldValue[fieldIndex] = value; } bool Calendar_gregorian::getCombinedOffset( sal_Int32 & o_nOffset, sal_Int16 nParentFieldIndex, sal_Int16 nChildFieldIndex ) const { o_nOffset = 0; bool bFieldsSet = false; if (fieldSet & (1 << nParentFieldIndex)) { bFieldsSet = true; o_nOffset = static_cast( fieldValue[nParentFieldIndex]) * 60000; } if (fieldSet & (1 << nChildFieldIndex)) { bFieldsSet = true; if (o_nOffset < 0) o_nOffset -= static_cast( fieldValue[nChildFieldIndex]); else o_nOffset += static_cast( fieldValue[nChildFieldIndex]); } return bFieldsSet; } bool Calendar_gregorian::getZoneOffset( sal_Int32 & o_nOffset ) const { return getCombinedOffset( o_nOffset, CalendarFieldIndex::ZONE_OFFSET, CalendarFieldIndex::ZONE_OFFSET_SECOND_MILLIS); } bool Calendar_gregorian::getDSTOffset( sal_Int32 & o_nOffset ) const { return getCombinedOffset( o_nOffset, CalendarFieldIndex::DST_OFFSET, CalendarFieldIndex::DST_OFFSET_SECOND_MILLIS); } void Calendar_gregorian::submitFields() { for (sal_Int16 fieldIndex = 0; fieldIndex < FIELD_INDEX_COUNT; fieldIndex++) { if (fieldSet & (1 << fieldIndex)) { switch (fieldIndex) { default: body->set(fieldNameConverter(fieldIndex), fieldSetValue[fieldIndex]); break; case CalendarFieldIndex::ZONE_OFFSET: case CalendarFieldIndex::DST_OFFSET: case CalendarFieldIndex::ZONE_OFFSET_SECOND_MILLIS: case CalendarFieldIndex::DST_OFFSET_SECOND_MILLIS: break; // nothing, extra handling } } } sal_Int32 nZoneOffset, nDSTOffset; if (getZoneOffset( nZoneOffset)) body->set( fieldNameConverter( CalendarFieldIndex::ZONE_OFFSET), nZoneOffset); if (getDSTOffset( nDSTOffset)) body->set( fieldNameConverter( CalendarFieldIndex::DST_OFFSET), nDSTOffset); } void Calendar_gregorian::setValue() { // Copy fields before calling submitFields() directly or indirectly below. memcpy(fieldSetValue, fieldValue, sizeof(fieldSetValue)); // Possibly setup ERA and YEAR in fieldSetValue. mapToGregorian(); DUMP_ICU_CAL_MSG(("%s\n","setValue() before submission")); DUMP_I18N_CAL_MSG(("%s\n","setValue() before submission")); submitFields(); DUMP_ICU_CAL_MSG(("%s\n","setValue() after submission")); DUMP_I18N_CAL_MSG(("%s\n","setValue() after submission")); #if erDUMP_ICU_CALENDAR || erDUMP_I18N_CALENDAR { // force icu::Calendar to recalculate UErrorCode status; sal_Int32 nTmp = body->get( UCAL_DATE, status = U_ZERO_ERROR); DUMP_ICU_CAL_MSG(("%s: %d\n","setValue() result day",nTmp)); DUMP_I18N_CAL_MSG(("%s: %d\n","setValue() result day",nTmp)); } #endif } void Calendar_gregorian::getValue() { DUMP_ICU_CAL_MSG(("%s\n","getValue()")); DUMP_I18N_CAL_MSG(("%s\n","getValue()")); for (sal_Int16 fieldIndex = 0; fieldIndex < FIELD_INDEX_COUNT; fieldIndex++) { if (fieldIndex == CalendarFieldIndex::ZONE_OFFSET_SECOND_MILLIS || fieldIndex == CalendarFieldIndex::DST_OFFSET_SECOND_MILLIS) continue; // not ICU fields UErrorCode status = U_ZERO_ERROR; sal_Int32 value = body->get( fieldNameConverter( fieldIndex), status); if ( !U_SUCCESS(status) ) throw RuntimeException(); // Convert millisecond to minute for ZONE and DST and set remainder in // second field. if (fieldIndex == CalendarFieldIndex::ZONE_OFFSET) { sal_Int32 nMinutes = value / 60000; sal_Int16 nMillis = static_cast( static_cast( abs( value - nMinutes * 60000))); fieldValue[CalendarFieldIndex::ZONE_OFFSET] = static_cast( nMinutes); fieldValue[CalendarFieldIndex::ZONE_OFFSET_SECOND_MILLIS] = nMillis; } else if (fieldIndex == CalendarFieldIndex::DST_OFFSET) { sal_Int32 nMinutes = value / 60000; sal_Int16 nMillis = static_cast( static_cast( abs( value - nMinutes * 60000))); fieldValue[CalendarFieldIndex::DST_OFFSET] = static_cast( nMinutes); fieldValue[CalendarFieldIndex::DST_OFFSET_SECOND_MILLIS] = nMillis; } else fieldValue[fieldIndex] = static_cast(value); // offset 1 since the value for week start day SunDay is different between Calendar and Weekdays. if ( fieldIndex == CalendarFieldIndex::DAY_OF_WEEK ) fieldValue[fieldIndex]--; // UCAL_SUNDAY:/* == 1 */ ==> Weekdays::SUNDAY /* ==0 */ } mapFromGregorian(); fieldSet = 0; } sal_Int16 SAL_CALL Calendar_gregorian::getValue( sal_Int16 fieldIndex ) { if (fieldIndex < 0 || FIELD_INDEX_COUNT <= fieldIndex) throw RuntimeException(); if (fieldSet) { setValue(); getValue(); } return fieldValue[fieldIndex]; } void SAL_CALL Calendar_gregorian::addValue( sal_Int16 fieldIndex, sal_Int32 value ) { // since ZONE and DST could not be add, we don't need to convert value here UErrorCode status = U_ZERO_ERROR; body->add(fieldNameConverter(fieldIndex), value, status); if ( !U_SUCCESS(status) ) throw RuntimeException(); getValue(); } sal_Bool SAL_CALL Calendar_gregorian::isValid() { if (fieldSet) { sal_Int32 tmp = fieldSet; setValue(); memcpy(fieldSetValue, fieldValue, sizeof(fieldSetValue)); getValue(); for ( sal_Int16 fieldIndex = 0; fieldIndex < FIELD_INDEX_COUNT; fieldIndex++ ) { // compare only with fields that are set and reset fieldSet[] if (tmp & (1 << fieldIndex)) { if (fieldSetValue[fieldIndex] != fieldValue[fieldIndex]) return false; } } } return true; } // NativeNumberMode has different meaning between Number and Calendar for Asian locales. // Here is the mapping table // calendar(q/y/m/d) zh_CN zh_TW ja ko // NatNum1 NatNum1/1/7/7 NatNum1/1/7/7 NatNum1/1/4/4 NatNum1/1/7/7 // NatNum2 NatNum2/2/8/8 NatNum2/2/8/8 NatNum2/2/5/5 NatNum2/2/8/8 // NatNum3 NatNum3/3/3/3 NatNum3/3/3/3 NatNum3/3/3/3 NatNum3/3/3/3 // NatNum4 NatNum9/9/11/11 static sal_Int16 NatNumForCalendar(const css::lang::Locale& aLocale, sal_Int32 nCalendarDisplayCode, sal_Int16 nNativeNumberMode, sal_Int32 value ) { bool isShort = ((nCalendarDisplayCode == CalendarDisplayCode::SHORT_YEAR || nCalendarDisplayCode == CalendarDisplayCode::LONG_YEAR) && value >= 100) || nCalendarDisplayCode == CalendarDisplayCode::SHORT_QUARTER || nCalendarDisplayCode == CalendarDisplayCode::LONG_QUARTER; bool isChinese = aLocale.Language == "zh"; bool isJapanese = aLocale.Language == "ja"; bool isKorean = aLocale.Language == "ko"; if (isChinese || isJapanese || isKorean) { switch (nNativeNumberMode) { case NativeNumberMode::NATNUM1: if (!isShort) nNativeNumberMode = isJapanese ? NativeNumberMode::NATNUM4 : NativeNumberMode::NATNUM7; break; case NativeNumberMode::NATNUM2: if (!isShort) nNativeNumberMode = isJapanese ? NativeNumberMode::NATNUM5 : NativeNumberMode::NATNUM8; break; case NativeNumberMode::NATNUM3: break; case NativeNumberMode::NATNUM4: if (isKorean) return isShort ? NativeNumberMode::NATNUM9 : NativeNumberMode::NATNUM11; [[fallthrough]]; default: return 0; } } return nNativeNumberMode; } static sal_Int32 DisplayCode2FieldIndex(sal_Int32 nCalendarDisplayCode) { switch( nCalendarDisplayCode ) { case CalendarDisplayCode::SHORT_DAY: case CalendarDisplayCode::LONG_DAY: return CalendarFieldIndex::DAY_OF_MONTH; case CalendarDisplayCode::SHORT_DAY_NAME: case CalendarDisplayCode::LONG_DAY_NAME: case CalendarDisplayCode::NARROW_DAY_NAME: return CalendarFieldIndex::DAY_OF_WEEK; case CalendarDisplayCode::SHORT_QUARTER: case CalendarDisplayCode::LONG_QUARTER: case CalendarDisplayCode::SHORT_MONTH: case CalendarDisplayCode::LONG_MONTH: case CalendarDisplayCode::SHORT_MONTH_NAME: case CalendarDisplayCode::LONG_MONTH_NAME: case CalendarDisplayCode::NARROW_MONTH_NAME: case CalendarDisplayCode::SHORT_GENITIVE_MONTH_NAME: case CalendarDisplayCode::LONG_GENITIVE_MONTH_NAME: case CalendarDisplayCode::NARROW_GENITIVE_MONTH_NAME: case CalendarDisplayCode::SHORT_PARTITIVE_MONTH_NAME: case CalendarDisplayCode::LONG_PARTITIVE_MONTH_NAME: case CalendarDisplayCode::NARROW_PARTITIVE_MONTH_NAME: return CalendarFieldIndex::MONTH; case CalendarDisplayCode::SHORT_YEAR: case CalendarDisplayCode::LONG_YEAR: return CalendarFieldIndex::YEAR; case CalendarDisplayCode::SHORT_ERA: case CalendarDisplayCode::LONG_ERA: return CalendarFieldIndex::ERA; case CalendarDisplayCode::SHORT_YEAR_AND_ERA: case CalendarDisplayCode::LONG_YEAR_AND_ERA: return CalendarFieldIndex::YEAR; default: return 0; } } sal_Int16 SAL_CALL Calendar_gregorian::getFirstDayOfWeek() { // UCAL_SUNDAY == 1, Weekdays::SUNDAY == 0 => offset -1 // Check for underflow just in case we're called "out of sync". return ::std::max( sal::static_int_cast(0), sal::static_int_cast( static_cast( body->getFirstDayOfWeek()) - 1)); } void SAL_CALL Calendar_gregorian::setFirstDayOfWeek( sal_Int16 day ) { // Weekdays::SUNDAY == 0, UCAL_SUNDAY == 1 => offset +1 body->setFirstDayOfWeek( static_cast( day + 1)); } void SAL_CALL Calendar_gregorian::setMinimumNumberOfDaysForFirstWeek( sal_Int16 days ) { aCalendar.MinimumNumberOfDaysForFirstWeek = days; body->setMinimalDaysInFirstWeek( static_cast( days)); } sal_Int16 SAL_CALL Calendar_gregorian::getMinimumNumberOfDaysForFirstWeek() { return aCalendar.MinimumNumberOfDaysForFirstWeek; } sal_Int16 SAL_CALL Calendar_gregorian::getNumberOfMonthsInYear() { return static_cast(aCalendar.Months.getLength()); } sal_Int16 SAL_CALL Calendar_gregorian::getNumberOfDaysInWeek() { return static_cast(aCalendar.Days.getLength()); } Sequence< CalendarItem > SAL_CALL Calendar_gregorian::getDays() { return LocaleDataImpl::downcastCalendarItems( aCalendar.Days); } Sequence< CalendarItem > SAL_CALL Calendar_gregorian::getMonths() { return LocaleDataImpl::downcastCalendarItems( aCalendar.Months); } Sequence< CalendarItem2 > SAL_CALL Calendar_gregorian::getDays2() { return aCalendar.Days; } Sequence< CalendarItem2 > SAL_CALL Calendar_gregorian::getMonths2() { return aCalendar.Months; } Sequence< CalendarItem2 > SAL_CALL Calendar_gregorian::getGenitiveMonths2() { return aCalendar.GenitiveMonths; } Sequence< CalendarItem2 > SAL_CALL Calendar_gregorian::getPartitiveMonths2() { return aCalendar.PartitiveMonths; } OUString SAL_CALL Calendar_gregorian::getDisplayName( sal_Int16 displayIndex, sal_Int16 idx, sal_Int16 nameType ) { OUString aStr; switch( displayIndex ) { case CalendarDisplayIndex::AM_PM:/* ==0 */ if (idx == 0) aStr = LocaleDataImpl::get()->getLocaleItem(aLocale).timeAM; else if (idx == 1) aStr = LocaleDataImpl::get()->getLocaleItem(aLocale).timePM; else throw RuntimeException(); break; case CalendarDisplayIndex::DAY: if( idx >= aCalendar.Days.getLength() ) throw RuntimeException(); if (nameType == 0) aStr = aCalendar.Days[idx].AbbrevName; else if (nameType == 1) aStr = aCalendar.Days[idx].FullName; else if (nameType == 2) aStr = aCalendar.Days[idx].NarrowName; else throw RuntimeException(); break; case CalendarDisplayIndex::MONTH: if( idx >= aCalendar.Months.getLength() ) throw RuntimeException(); if (nameType == 0) aStr = aCalendar.Months[idx].AbbrevName; else if (nameType == 1) aStr = aCalendar.Months[idx].FullName; else if (nameType == 2) aStr = aCalendar.Months[idx].NarrowName; else throw RuntimeException(); break; case CalendarDisplayIndex::GENITIVE_MONTH: if( idx >= aCalendar.GenitiveMonths.getLength() ) throw RuntimeException(); if (nameType == 0) aStr = aCalendar.GenitiveMonths[idx].AbbrevName; else if (nameType == 1) aStr = aCalendar.GenitiveMonths[idx].FullName; else if (nameType == 2) aStr = aCalendar.GenitiveMonths[idx].NarrowName; else throw RuntimeException(); break; case CalendarDisplayIndex::PARTITIVE_MONTH: if( idx >= aCalendar.PartitiveMonths.getLength() ) throw RuntimeException(); if (nameType == 0) aStr = aCalendar.PartitiveMonths[idx].AbbrevName; else if (nameType == 1) aStr = aCalendar.PartitiveMonths[idx].FullName; else if (nameType == 2) aStr = aCalendar.PartitiveMonths[idx].NarrowName; else throw RuntimeException(); break; case CalendarDisplayIndex::ERA: if( idx >= aCalendar.Eras.getLength() ) throw RuntimeException(); if (nameType == 0) aStr = aCalendar.Eras[idx].AbbrevName; else if (nameType == 1) aStr = aCalendar.Eras[idx].FullName; else throw RuntimeException(); break; case CalendarDisplayIndex::YEAR: break; default: throw RuntimeException(); } return aStr; } // Methods in XExtendedCalendar OUString SAL_CALL Calendar_gregorian::getDisplayString( sal_Int32 nCalendarDisplayCode, sal_Int16 nNativeNumberMode ) { return getDisplayStringImpl( nCalendarDisplayCode, nNativeNumberMode, false); } OUString Calendar_gregorian::getDisplayStringImpl( sal_Int32 nCalendarDisplayCode, sal_Int16 nNativeNumberMode, bool bEraMode ) { sal_Int32 value = cast16To32( getValue( sal::static_int_cast( DisplayCode2FieldIndex(nCalendarDisplayCode)))); OUString aOUStr; if (nCalendarDisplayCode == CalendarDisplayCode::SHORT_QUARTER || nCalendarDisplayCode == CalendarDisplayCode::LONG_QUARTER) { Sequence< OUString> xR = LocaleDataImpl::get()->getReservedWord(aLocale); sal_Int16 quarter = value / 3; // Since this base class method may be called by derived calendar // classes where a year consists of more than 12 months we need a check // to not run out of bounds of reserved quarter words. Perhaps a more // clean way (instead of dividing by 3) would be to first get the // number of months, divide by 4 and then use that result to divide the // actual month value. if ( quarter > 3 ) quarter = 3; quarter = sal::static_int_cast( quarter + ((nCalendarDisplayCode == CalendarDisplayCode::SHORT_QUARTER) ? reservedWords::QUARTER1_ABBREVIATION : reservedWords::QUARTER1_WORD) ); aOUStr = xR[quarter]; } else { // The "#100211# - checked" comments serve for detection of "use of // sprintf is safe here" conditions. An sprintf encountered without // having that comment triggers alarm ;-) switch( nCalendarDisplayCode ) { case CalendarDisplayCode::SHORT_MONTH: value += 1; // month is zero based [[fallthrough]]; case CalendarDisplayCode::SHORT_DAY: aOUStr = OUString::number(value); break; case CalendarDisplayCode::LONG_YEAR: if ( aCalendar.Name == "gengou" ) { char aStr[12]; // "-2147483648" and \0 o3tl::sprintf(aStr, "%02" SAL_PRIdINT32, value); // #100211# - checked aOUStr = OUString::createFromAscii(aStr); } else aOUStr = OUString::number(value); break; case CalendarDisplayCode::LONG_MONTH: { value += 1; // month is zero based char aStr[12]; // "-2147483648" and \0 o3tl::sprintf(aStr, "%02" SAL_PRIdINT32, value); // #100211# - checked aOUStr = OUString::createFromAscii(aStr); break; } case CalendarDisplayCode::SHORT_YEAR: // Take last 2 digits, or only one if value<10, for example, // in case of the Gengou calendar. For combined era+year always // the full year is displayed, without leading 0. // Workaround for non-combined calls in certain calendars is // the kDisplayEraForcedLongYear flag, but this also could get // called for YY not only E format codes, no differentiation // possible here; the good news is that usually the Gregorian // calendar is the default and hence YY calls for Gregorian and // E for the other calendar and currently (2013-02-28) ROC is // the only calendar using this. // See i#116701 and fdo#60915 if (value < 100 || bEraMode || (eraArray && (eraArray[0].flags & kDisplayEraForcedLongYear))) aOUStr = OUString::number(value); else { char aStr[12]; // "-2147483648" and \0 o3tl::sprintf(aStr, "%02" SAL_PRIdINT32, value % 100); // #100211# - checked aOUStr = OUString::createFromAscii(aStr); } break; case CalendarDisplayCode::LONG_DAY: { char aStr[12]; // "-2147483648" and \0 o3tl::sprintf(aStr, "%02" SAL_PRIdINT32, value); // #100211# - checked aOUStr = OUString::createFromAscii(aStr); break; } case CalendarDisplayCode::SHORT_DAY_NAME: return getDisplayName(CalendarDisplayIndex::DAY, value, 0); case CalendarDisplayCode::LONG_DAY_NAME: return getDisplayName(CalendarDisplayIndex::DAY, value, 1); case CalendarDisplayCode::NARROW_DAY_NAME: return getDisplayName(CalendarDisplayIndex::DAY, value, 2); case CalendarDisplayCode::SHORT_MONTH_NAME: return getDisplayName(CalendarDisplayIndex::MONTH, value, 0); case CalendarDisplayCode::LONG_MONTH_NAME: return getDisplayName(CalendarDisplayIndex::MONTH, value, 1); case CalendarDisplayCode::NARROW_MONTH_NAME: return getDisplayName(CalendarDisplayIndex::MONTH, value, 2); case CalendarDisplayCode::SHORT_GENITIVE_MONTH_NAME: return getDisplayName(CalendarDisplayIndex::GENITIVE_MONTH, value, 0); case CalendarDisplayCode::LONG_GENITIVE_MONTH_NAME: return getDisplayName(CalendarDisplayIndex::GENITIVE_MONTH, value, 1); case CalendarDisplayCode::NARROW_GENITIVE_MONTH_NAME: return getDisplayName(CalendarDisplayIndex::GENITIVE_MONTH, value, 2); case CalendarDisplayCode::SHORT_PARTITIVE_MONTH_NAME: return getDisplayName(CalendarDisplayIndex::PARTITIVE_MONTH, value, 0); case CalendarDisplayCode::LONG_PARTITIVE_MONTH_NAME: return getDisplayName(CalendarDisplayIndex::PARTITIVE_MONTH, value, 1); case CalendarDisplayCode::NARROW_PARTITIVE_MONTH_NAME: return getDisplayName(CalendarDisplayIndex::PARTITIVE_MONTH, value, 2); case CalendarDisplayCode::SHORT_ERA: return getDisplayName(CalendarDisplayIndex::ERA, value, 0); case CalendarDisplayCode::LONG_ERA: return getDisplayName(CalendarDisplayIndex::ERA, value, 1); case CalendarDisplayCode::SHORT_YEAR_AND_ERA: return getDisplayStringImpl( CalendarDisplayCode::SHORT_ERA, nNativeNumberMode, true ) + getDisplayStringImpl( CalendarDisplayCode::SHORT_YEAR, nNativeNumberMode, true ); case CalendarDisplayCode::LONG_YEAR_AND_ERA: return getDisplayStringImpl( CalendarDisplayCode::LONG_ERA, nNativeNumberMode, true ) + getDisplayStringImpl( CalendarDisplayCode::LONG_YEAR, nNativeNumberMode, true ); default: throw RuntimeException(); } } // NatNum12 used only for selected parts if (nNativeNumberMode > 0 && nNativeNumberMode != 12) { // For Japanese calendar, first year calls GAN, see bug 111668 for detail. if (eraArray == gengou_eraArray && value == 1 && (nCalendarDisplayCode == CalendarDisplayCode::SHORT_YEAR || nCalendarDisplayCode == CalendarDisplayCode::LONG_YEAR) && (nNativeNumberMode == NativeNumberMode::NATNUM1 || nNativeNumberMode == NativeNumberMode::NATNUM2)) { static sal_Unicode gan = 0x5143; return OUString(&gan, 1); } sal_Int16 nNatNum = NatNumForCalendar(aLocale, nCalendarDisplayCode, nNativeNumberMode, value); if (nNatNum > 0) return mxNatNum->getNativeNumberString(aOUStr, aLocale, nNatNum); } return aOUStr; } // Methods in XExtendedCalendar OUString SAL_CALL Calendar_buddhist::getDisplayString( sal_Int32 nCalendarDisplayCode, sal_Int16 nNativeNumberMode ) { // make year and era in different order for year before and after 0. if ((nCalendarDisplayCode == CalendarDisplayCode::LONG_YEAR_AND_ERA || nCalendarDisplayCode == CalendarDisplayCode::SHORT_YEAR_AND_ERA) && getValue(CalendarFieldIndex::ERA) == 0) { if (nCalendarDisplayCode == CalendarDisplayCode::LONG_YEAR_AND_ERA) return getDisplayStringImpl( CalendarDisplayCode::SHORT_YEAR, nNativeNumberMode, true ) + getDisplayStringImpl( CalendarDisplayCode::SHORT_ERA, nNativeNumberMode, true ); else return getDisplayStringImpl( CalendarDisplayCode::LONG_YEAR, nNativeNumberMode, true ) + getDisplayStringImpl( CalendarDisplayCode::LONG_ERA, nNativeNumberMode, true ); } return Calendar_gregorian::getDisplayString(nCalendarDisplayCode, nNativeNumberMode); } OUString SAL_CALL Calendar_gregorian::getImplementationName() { return cCalendar; } sal_Bool SAL_CALL Calendar_gregorian::supportsService(const OUString& rServiceName) { return cppu::supportsService(this, rServiceName); } Sequence< OUString > SAL_CALL Calendar_gregorian::getSupportedServiceNames() { return { cCalendar }; } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */